Transaction card assemblies and methods

ABSTRACT

Transaction card assemblies, systems and methods of making are provided. One such assembly includes a card carrier having a card integrally formed within. The card peripherally engages the card carrier and is adapted to be removed from the card carrier. An encodable strip is disposed on the card. The strip has first and second encodable tracks. The first encodable track is positioned to be read by a point-of-sale device when the card is engaged with the card carrier, and the second encodable track is positioned to be read by the point-of-sale device after the card is separated from the carrier. In this manner, the card can be read using the same point-of-sale device whether or not the card has been separated from the carrier.

PRIORITY CLAIM

The present invention claims priority from U.S. Provisional ApplicationNo. 60/638,079, filed Dec. 20, 2004, entitled Transaction CardAssemblies, Systems and Methods of Making, assigned to the assignee ofthe present invention, the complete disclosure of which is incorporatedherein by reference.

BACKGROUND OF THE INVENTION

The present invention is related to transaction cards, and morespecifically, to transaction card assemblies, systems, and methods ofmaking.

Transaction cards, such as credit cards, debit cards, membership cards,stored value cards, and the like, are widely used. Such cards mayinclude a variety of different indicia to identify the card and otherfeatures, such as the card issuer, the customer, or the like dependingin part on the type of card. The information may be printed on the cardusing alphanumeric characters, graphics, or the like, or may be embossedinto the card. Alternatively, some or all the information is encoded onthe card, such as in a magnetic strip attached to the card.

Some transaction cards are coupled to a carrier having additionalinformation. For example, stored value cards sold in retail locationsmay have a carrier containing promotional information, and otherinducements to buy the card. The cards may be attached to the carrier,such as with an adhesive strip. Many transaction cards are coupled totheir carriers in a way that makes reading those cards difficult usingstandard point-of-sale devices. For example, the data included on thecard may be on the side of the card affixed to the card carrier.Further, the card that has data exposed runs the risk of damage to thedata. Inadvertent separation of the card from the carrier also maypresent problems. Improvements are desired.

BRIEF SUMMARY OF THE INVENTION

The present invention is related to transaction cards, and morespecifically, to transaction card assemblies, systems, and methods ofmaking. In one embodiment, a transaction card assembly according to thepresent invention includes a carrier and a card integrally formed withinand peripherally engaging the carrier. The card is adapted to be removedfrom the carrier, and includes a magnetic strip disposed on the card.

In one aspect, the carrier assembly and the card are substantiallyco-planar when the card peripherally engages the carrier. In someaspects, the card has generally rectangular first and second surfacesspaced apart by a peripheral edge, with four sides of the peripheraledge engaging the carrier assembly. In this manner, the card isprotected by the carrier prior to its separation from the carrier. Inone aspect, the card is a punch-out portion of the carrier. This mayoccur, for example, when an interface between the carrier and the cardincludes a scored region in the carrier, with the scored region defininga periphery of the card. In one aspect, the card peripherally engagesthe carrier in a press fit arrangement. This may occur, for example,when two opposing edges of the card peripherally engage the carrier tofrictionally retain the card within the carrier. In some aspects, awrapping such as a shrink wrap cover is disposed over the card and overa portion or all of the card carrier. In this manner, the card isfurther protected and retained in the carrier.

In alternative aspects, the magnetic strip includes one track, twotracks, three tracks, or more, on which data may be encoded. In someaspects, the magnetic strip includes two tracks having a same data setencoded therein. The data set may include a card identifier, a cardvalue amount, customer information, card vendor information, and thelike.

In a preferred embodiment, the magnetic strip is positioned a firstdistance from a card edge and is positioned a second distance from anedge of the carrier, with the card edge disposed between the magneticstrip and carrier edge. The magnetic strip may include two spaced aparttracks, with the spacing between the two tracks being substantially thesame as a difference between the second distance and the first distance.In some aspects, the magnetic strip first track is positioned to be readby a point-of-sale device when the card and carrier are engaged, and thesecond track is positioned to be read by the point-of-sale device afterthe card is separated from the carrier.

In another embodiment, a transaction card assembly includes a cardcarrier having a card integrally formed within. The card peripherallyengages the card carrier and is adapted to be removed from the cardcarrier. An encodable strip is disposed on the card. The strip has firstand second encodable tracks. The first encodable track is positioned tobe read by a point-of-sale device when the card is engaged with the cardcarrier, and the second encodable track is positioned to be read by thepoint-of-sale device after the card is separated from the carrier.

The present invention further provides methods of making transactioncard assembly combinations. One such method includes forming a cardcarrier from a sheet of material, and forming one or more score lineswithin the card carrier. The score line defines a periphery of a cardthat is adapted for removal from the card carrier. In this manner, thecard is peripherally engaged by the carrier to protect it and prevent orhelp prevent an unintended removal from the carrier. The method includesapplying an encodable strip to a surface of the card. In one aspect,removal of the card from the card carrier creates a hole in the cardcarrier, which may correspond to the size of the removed card. In someaspects, the card may be imprinted, embossed, or otherwise provided witha data set. The card may be reinserted into the card carrier, with thecard frictionally engaging the carrier to help maintain a coupling ofthe card and carrier. A wrapping or cover such as shrink wrap also maybe used to maintain the coupled card and carrier arrangement.

The method may include applying the encodable strip to a portion of thecard carrier in general alignment with the encodable strip portion onthe card surface. In this manner, the encodable strip, which may includea magnetic strip, a uniform product code, or the like, spans the cardand at least a portion of the carrier. The encodable strip includes, inone embodiment, first and second encodable tracks spaced apart from oneanother by a gap.

In one aspect, the gap is a same distance as a distance between an edgeof the card to an edge of the card carrier. In this manner, theencodable strip can be read by a point-of-sale device whether or not thecard is coupled to or engaged with the carrier. In some aspects, thefirst and second tracks are encoded with a same data set. In thismanner, the point-of-sale device reads the same data whether it readsthe card with or without the carrier attached to the card. Further, thecard and carrier can be purchased together, with the card being read bya point of sale device, and maintained as a single piece. In thismanner, the card may be given as a gift or the like after purchasewithout disengaging the card from the carrier.

Other objects, features and advantages of the present invention willbecome more fully apparent from the following detailed description, theappended claims and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an overall view of a sheet of material for forming transactioncard assemblies according to an embodiment of the present invention;

FIG. 2 is an overall rear view of a transaction card assembly accordingto an embodiment of the present invention;

FIG. 3A is a perspective front view of a transaction card assemblyaccording to an embodiment of the present invention;

FIGS. 3B and 3C are side views depicting a scored region of atransaction card assembly according to embodiments of the presentinvention;

FIGS. 4A and 4B are simplified rear views of a transaction card (FIG.4A) and a transaction card assembly (FIG. 4B) showing the spacing of anencodable strip according to an embodiment of the present invention;

FIG. 5 is a simplified rear view of a transaction card assemblyaccording to an alternative embodiment of the present invention;

FIG. 6 is a simplified top view of a point-of-sale device according toan embodiment of the present invention for reading encodable stripsdisposed on transaction card assemblies of the present invention; and

FIG. 7 is a simplified top view of a transaction card assembly accordingto an alternative embodiment of the present invention.

DESCRIPTION OF THE SPECIFIC EMBODIMENTS

Cards of the present invention may be a wide variety of cards sent tocustomers or available for purchase by the consuming public. Cards couldbe used for functions similar to or the same as those described inpending U.S. patent application Ser. No. 9/971,303, filed Oct. 3, 2001,entitled Stored Value Cards and Methods for Their Issuance; U.S. patentapplication Ser. No. 10/421,604, filed Apr. 22, 2003, entitledMulti-Purse Card Systems and Methods; and U.S. patent application Ser.No. 10/744,888, filed Dec. 23, 2003, entitled Stored Value Lottery Cardand Methods., each of which are assigned to the assignee of the presentinvention, with the complete disclosures of each being incorporatedherein by reference for all purposes. In some embodiments, cards of thepresent invention include ValueLink® gift cards manufactured and/ordistributed by First Data Corporation of Englewood, Colo.

Referring to FIGS. 1 and 2, transaction card assemblies according to anembodiment of the present invention will be described. FIG. 1 depicts asheet of material 100 from which a plurality of transaction cardassemblies 110 are manufactured. Material 100 may be a wide range ofmaterials within the scope of the present invention including, withoutlimitation, plastic, nylon, polyvinyl chloride (PVC), cardboard stock,paper laminated with a plastic, and the like. In one embodiment, sheet100 comprises a material similar to that used with gift cards, creditcards, ATM cards, and the like. In one embodiment, sheet of material 100is formed having a desired or acceptable thickness. Transaction cardassemblies 110 are formed from sheet 100 using a punch dye, punch press,or other device designed to cut or remove assemblies 110 from sheet 100.In some embodiments, complete rows or entire sheets 100 of assemblies110 are formed in a single stroke of the punch dye. While FIG. 1 depictstransaction card assemblies 110 having spaces between them, the amountof space between adjacent assemblies 110 or adjacent rows of assemblies110 may vary from that depicted. Further, in some embodimentstransaction card assemblies 110 have no space between adjacentassemblies 110.

FIG. 2 depicts a transaction card assembly 110 manufactured from sheet100. In one embodiment, assembly 110 includes a hole 130 formedtherethrough. Hole 130 may be used to hang assembly 110 from a J-hook orother point-of-purchase display. As shown in FIG. 2, assembly 100includes a card carrier 120 and a card 140. In one embodiment, carrier120 and card 140 are formed from sheet 100 and therefore comprise a samematerial. Card 140, in one embodiment, is formed within card carrier120, with card 140 peripherally engaging card carrier 120. In oneembodiment, card 140 comprises a standard CR80 card, although other sizecards also fall within the scope of the present invention. Thus, in oneembodiment card 140 is generally rectangular in shape having four edgesand two opposing surfaces, an upper surface and a lower surface. Cardsurfaces may be printed, embossed, or otherwise provided with a widerange of information, including card issuer or customer identificationinformation, such as a name, a logo, terms and conditions, or the like;a card expiration date; counterfeit protection measures such as ahologram; and the like.

In one embodiment, card 140 includes an encodable strip 150 disposed ona portion of card 140. For example, encodable strip may be disposed on arear surface of card 140. In one embodiment, encodable strip 150 extendsbeyond the surface of card 140 to include end portions 152 formed oncard carrier 120. In one embodiment, encodable strip end portions 152are generally aligned with the portion of encodable strip 150 on card140. In some embodiments, encodable strip 150 is formed on card 140after transaction card assemblies 110 are removed from sheet of material100. In other embodiments, encodable strips 150 are formed on sheet ofmaterial 110 prior to the separation of action card assemblies 110therefrom.

As shown in FIG. 3A, card 140 is adapted to peripherally engage carrier120, and in a preferred embodiment, is disposed within carrier 120. Card140 has a peripheral edge 142 which engages or is coupled to edge 122 ofcard carrier 120. In one embodiment, all four peripheral edges of card140 engage carrier 120 to couple the two together. In other embodiments,at least one side, at least two sides, or at least three sides ofperipheral edge 142 engage card carrier edge 122. In still anotherembodiment, only a portion of one or more sides of peripheral edge 142engage card carrier edge 122. In still another embodiment, one or morecomers of peripheral edge 142 engage card carrier edge 122. The engagedcarrier 120 and card 140 are generally co-planar in some embodiments,such as is shown in FIG. 3A. Preferably, card 140 can be separated fromcarrier 120, for subsequent use by a customer or card recipient.

In one embodiment, peripheral edge 142 of card 140 is formed by creatinga scored region within carrier 120. As shown in FIG. 3B and 3C, one ormore score lines 150 may be formed within assembly 110, so as to providea separation line between carrier 120 and card 140. In some embodiments,score line 150 is created from a single side or surface of transactioncard assembly 110 (FIG. 3B). In an alternative embodiment, score line150 is formed from opposing surfaces of transaction card assembly 110(FIG. 3C). In one embodiment, score lines 150 are formed simultaneouswith the separation of transaction card assemblies 110 from sheet 100.In alternative embodiments, score lines 150 are formed before and/orafter the separation of transaction card assemblies 110 from sheet 100.

Score line(s) 150 create a weakened interface between carrier 120 andcard 140, allowing transaction cards 140 to be removed from cardcarriers 120. The removal of card 140 from carrier 120 may beaccomplished by pressing on card 140 and/or carrier 120. Score line(s)150 break, to allow card 140 to be removed from carrier 120. In oneembodiment, card 140 is a punch-out card that snaps, or disengages fromcarrier 120. In one embodiment, the removal of card 140 from carrier 120leaves a hole in carrier 120 substantially the same size and shape ascard 140.

In another embodiment, an edge 124 of carrier 120 is first removed, andthen card 140 is removed from the remaining portion of carrier 120. Theremoval of edge 124 may be facilitated, for example, by extending ascore line 154 beyond card edge 142, to opposing edges 126 of carrier120. In this manner, a portion of carrier 120 is removed, to facilitatethe subsequent removal of card 140 from the remaining portion of carrier120. In another embodiment, a fold line or score line 154 exists in cardcarrier 120 to help bend a first portion of card carrier 120 relative toa second portion of card carrier 120 that remains engaged to card 140.The fold line or score line may, for example, be aligned to generallybisect card 140 location within carrier 120 as opposed to being alignedwith score line 150 or 154. In some embodiments, the fold line orseparate score line extends between two opposing edges 126 of cardcarrier 120. Alternatively, the fold line runs generally parallel toopposing edges 126. In this manner, first portion of card carrier 120 isdisengaged from card 140, and then the second portion of card carrier120 is disengaged from card 140. As a result, card 140 is separated fromcard carrier 120 in two or more steps. The peripheral edge engagementbetween carrier 120 and card 140 prevents or helps prevent an accidentalor unintended removal of card 140 from carrier 120. In this manner,transaction card assembly 110 is formed and remains a single piece for adesired period of time, such as during the display of card assembly 110prior to purchase.

FIG. 7 depicts a transaction card assembly 700 according to anotherembodiment of the present invention. In this embodiment, assembly 700includes a card carrier 720 and a card 740 frictionally engaging carrier720. An optional hole 730 formed through card carrier 720 permits cardcarrier 720 to be hung on a point-of-purchase display in someembodiments. Card 740 may be formed from a same sheet of material ascard carrier 720, but is further separated from carrier 720. In thismanner, card 740 may be removed from carrier 720 and personalized with adesired data set. The data set may include a wide range of informationincluding, without limitation, merchant information, customerinformation, account numbers, advertising, card value information, andthe like. Card 740 is returned to the same or different card carrier720, and maintained within card carrier 720. In one embodiment, card 740is reinserted into a hole 710 in carrier 720 from which card 740 wasremoved. In this manner, two opposing surfaces of card 740 can be viewedby a potential customer prior to purchase of card assembly 700. Further,information may be read from one or both surfaces of card 740 by apoint-of-sale device, a sales clerk, or the like, in order to facilitatethe sale of card 740 and/or the activation of card 740.

In one embodiment, card 740 is at least partially retained by cardcarrier 720 through the frictional engagement of one or more edges ofcard 740 and the corresponding edges of hole 710 in card carrier 720.For example, as shown in FIG. 7, in one embodiment two opposing edges ofcard 740 engage carrier 720. In this manner, card 720 is securelymaintained relative to card carrier 720. As shown in FIG. 7, in oneembodiment an upper edge 742 and a lower edge 744 of card 740 engagecard carrier 720. In this embodiment, card 740 maintains its alignmentrelative to an edge 725 of card carrier 720. As a result, an encodablestripe on card 740 can be maintained a known distance from edge 725 asfurther described below.

Side edges 746 of card 740 are shown spaced from the corresponding edgesof card carrier 720, and more specifically, from the interior side edgesof hole 710 formed in card carrier 720. In alternative embodiments, oneor more side edges 746 engage card carrier 720 to help retain card 740and card carrier 720. Card 740 and carrier 720 also may be frictionallycoupled at portions of sides 742-746, at the card corners, or somecombination thereof. Further, it will be appreciated by those skilled inthe art that the use of the terms upper, lower, right, left, side, andthe like may vary within the scope of the present invention depending inpart upon the orientation of transfer card assembly 700.

In a particular embodiment, card 740 is press fit into hole 710 in cardcarrier 720. In this manner, the customer can readily remove card 740from carrier 720 with the application of pressure to card 740 relativeto carrier 720. Card 740 also may pop out of hole 710 when carrier 720is bent. In another embodiment, a cover wrap 760 is disposed over atleast a portion of card assembly 700 to help retain card 740 withcarrier 720. As shown in FIG. 7, cover wrap 760 may be formed over aportion of carrier 720 having hole 710 and card 740. Alternatively,cover wrap 760 may be formed over the entire transaction card assembly700. In some embodiments, cover wrap 760 is a shrink wrap cover, and mayinclude, for example, a see-through plastic or film. Other materialsalso may be used. In one embodiment, card 740 can be read by apoint-of-sale device, as further described below, while attached tocarrier 720 or separated from carrier 740. Further, in one embodimentcard 740 can be read by a point-of-sale device with or without coverwrap 760. Cover wrap 760 may include advertising or other informationthe merchant or card issuer wishes to display to the consuming public.

With reference to FIGS. 4A and 4B, a particular embodiment of thepresent invention will be described. FIG. 4A depicts a transaction card440, and FIG. 4B depicts transaction card 440 engaged with a cardcarrier 420. In some embodiments, cards 440 and carriers 420 are similaror identical to cards 140 and carriers 120. Card 440 includes anencodable strip 450. In this embodiment, encodable strip 450 comprises amagnetic strip, also referred to as a magstripe. Magnetic strip 450 iscomprised of a large number of tiny iron-based magnetic particlesdisposed in a plastic-like film. Each particle can be magnetized ineither a north or south pole direction to maintain desired information.The information is laid down on magnetic strip 450 in tracks, such astracks governed by ISO/IEC Standard 7811. Generally, a wide variety ofinformation may be stored in magnetic strip 450, and the issuer of card440 has the option of deciding at least some of the informationcontained therein. For example, magnetic strip 450 may contain merchantidentification, customer identification, a card or account identifier,an expiration date, card monetary values or limits, usage records, apassword or personal identification number (PIN), and the like. In thismanner, cards 440 having magnetic strips 450 can be fashioned to containdesired information in accordance with the present invention.

In one embodiment, magnetic strip 450 includes a first track 452 and asecond track 454 separated by a gap 456. As shown, tracks 452 and 454are generally parallel to a lower edge 442 of transaction card 440. Itwill be appreciated by those skilled in the art that edge 442 may inalternative embodiments be an upper edge, a side edge, or the likedepending on the orientation of card 440. As can be seen in FIG. 4A,first track 452 is spaced a distance 460 from edge 442. First track 452has a width generally corresponding to the difference between a distance462 and distance 460 as shown in FIG. 4A. Gap 456 corresponds to thedifference between a distance 464 and distance 462 as shown in FIG. 4A.Second track 454 is positioned distance 464 from edge 442 of card 440.The width or thickness of second track 454 is the difference between adistance 466 and distance 464 that measures how far the edges of track454 are from card edge 442. In some embodiments, distances or spacings460-466 correspond to appropriate ANSI/ISO standards, including ANSI/ISOdocument 7811-2-2001. In one particular embodiment, distance 460 is0.228 inches, distance 462 is 0.328 inches, distance 464 is 0.358inches, and distance 466 is 0.458 inches. In this embodiment, firsttrack 452 and second track 454 are spaced a known distance from cardedge 442. In this manner, card 440 is read using a point-of-sale deviceby sliding or moving card 440 past a read head in the point of saledevice. Second track 454 is positioned so that the point-of-sale devicereads the data stored in second track 454.

FIG. 4B depicts card 440 engaged with card carrier 420. Card edge 442 isformed a distance 470 from a lower edge 422 of carrier 420. Again, loweredge 422 may be an upper edge, a side edge, or the like depending on theorientation of carrier 420. In a preferred embodiment, distance 470generally corresponds to a spacing 480 between first track 452 andsecond track 454. In one embodiment, spacing 480 is the differencebetween distances 464 and 460 shown in FIG. 4A. Further, for embodimentsin which tracks 452 and 454 have the same width, spacing 480 alsocorresponds to the difference between distances 466 and 462.

By defining the physical relationship between card 440 and carrier 420as described in conjunction with FIGS. 4A and 4B, data may be read froma desired track 452, 454 by a point-of-sale device. More specifically,sliding or engaging card 440 with a point-of-sale device will cause datafrom second track 454 to be read when the card is separate from thecarrier (FIG. 4A). Similarly, data will be read from first track 452when the card and carrier are engaged, and the associated transactioncard assembly is slid or otherwise read by a point-of-sale device. Thisis accomplished, at least in part, by forming distance 470 to correspondto spacing 480 between first and second tracks 452, 454. Thus, for thespecific numerical embodiment described in conjunction with FIG. 4A, gap480 and spacing 470 correspond to about 0.130 minches. In this manner,first track 452 is read using a point-of-sale device when card 440 isengaged with carrier 420.

In one embodiment, at least a portion of first and second tracks 452,454 are encoded with a same data set. The data set may include a cardidentifier, a card value amount, customer information, card vendorinformation, and the like. In this manner, a point-of-sale devicereading card 440 retrieves the same data or at least some of the samedata whether card 440 is coupled to carrier 420 or separated therefromprior to reading. In one embodiment, an encoding device (not shown)includes appropriate software to encode two tracks on card 440 with atleast some of the same data in a format readable by a point-of-saledevice. In some embodiments, magnetic strip 450 includes a third track(not shown). The third track may lie further from card edge 442 thanfirst and second tracks 452, 454. Alternatively, third track ispositioned closer to edge 442 than first track 452. It will beappreciated by those skilled in the art that the number of tracks mayvary from the prescribed one, two, or three tracks within the scope ofthe present invention.

In an alternative embodiment, second track 454 and the third track arepositioned to function as described above, with one of the tracksreadable when card 440 is separate from carrier 420, and the other trackreadable when card 440 is engaged with carrier 420. In one embodiment,magnetic strip 450 is positioned closer to or adjacent card edge 442,with second track 454 and the third track operating as the two readabletracks described above. In this embodiment, the third track ispositioned further from edge 442 than second track 454. First track 452may contain additional data in the same or a different format, or maynot contain data. Alternatively, first track 452 contains data inconformance with various ANSI/ISO standards.

The data encoded in tracks 452, 454 can have a variety of formats withinthe scope of the present invention, with some complying with magneticstrip standards provided by the American National Standards Institute(ANSI) and/or the International Organization of Standardization (OSI).In one particular embodiment, first track 452 includes at least some ofthe following fields: a start sentinel, a format code, an accountnumber, a first separator, a surname which may be the customer's name, asecond separator, an expiration date, a service code, a PVKI, a PVV,discretionary data, an end sentinel, and a longitudinal redundancy check(LRC). A separate field for use by VISA also may be included. Each fieldhas the appropriate length, which may vary from a single byte (e.g., forthe start and end sentinels, and the separators), to sixteen bytes(e.g., for the account number), up to N number of bytes (e.g., for thesurname field to accommodate names of various lengths). In someembodiments, second track 454 contains some or all of the same data setas encoded in first track 452. In other embodiments, first track 452and/or second track 454 contains an identifier to indicate to thepoint-of-sale device or an associated host computer system whether card440 has been previously swiped. The identifier may be a single byte, orlarger.

FIG. 5 depicts an alternative embodiment of the present invention. Morespecifically, FIG. 5 depicts a transaction card assembly 510 having acard 540 disposed within a card carrier 520. Card 540 includes anencodable strip 550. In this embodiment, encodable strip 550 includes afirst uniform product code (UPC) 552 and a second uniform product code(UPC) 554. In this embodiment, card 540 is read by a point-of-saledevice that is adapted to read UPCs. Again, in one embodiment, a cardedge 542 is spaced a distance 570 from a card carrier edge 522. In oneembodiment, distance 570 corresponds to a gap defined as the spacingbetween first and second UPCs 552, 554. The gap may be measured from thelower edges of UPCs 552, 554 (gap 560) or between upper edges of UPCs552, 554 (gap 562). In one embodiment, distance 570, gap 560 and gap 562are a same distance or length. In a preferred embodiment, distance 570corresponds to about 0.130 inches, although alternative distances fallwith the scope of the present invention.

FIG. 6 depicts a simplified view of a point-of-sale 600 according to thepresent invention. In one embodiment, point-of-sale device 600 comprisesa housing 610 having a display screen 620 and input devices 630.Conveniently, input devices 630 may comprise keys or buttons that may bedepressed to enter information into point-of-sale device 600. Inputdevices 630 also may be portions of a touch screen. Input devices 630may each be associated with one or more letters or other alpha-numericcharacters, or may operate as function keys. Point-of-sale device 600includes a track or groove 640 through which transaction card assembliesof the present invention may be slid. In one embodiment, track 640 isadapted to receive a lower edge of transaction card assemblies of thepresent invention, or to receive a lower edge of cards 140, 440, 540separate from the corresponding carriers 120, 420, 520. Point-of-saledevice 600 includes one or more read heads adapted to read data encodedon encodable strips, such as magnetic strips. Some or all of the dataread may be shown on display 620, and may optionally be printed toprovide a paper record. It will be appreciated that the invention is notintended to be limited for use with only a specific type ofpoint-of-sale device. For example, other point-of-sale devices that maybe used to read transaction cards of the present invention are describedin copending U.S. application Ser. No. 10/116,619, filed Apr. 3, 2002,the complete disclosure which is herein incorporated by reference.

A method of using a transaction card assembly according to the presentinvention will be described. For this example, the transaction card is agift card having a monetary value associated therewith for redemption ata particular merchant. A customer desiring to purchase the transactioncard at the merchant or related location will select the transactioncard assembly and either swipe the transaction card assembly through apoint-of-sale device, or have a store clerk swipe the transaction cardassembly through the point-of-sale device. As described above, at leastone encodable track disposed on the card is positioned to be read by thepoint-of-sale device even when the card is engaged with the cardcarrier. The point-of-sale device reads the encoded data and transmitsat least a portion of this data to a processing system that maintainsrecords on transaction cards and their associated accounts. The systemactivates an account associated with the card being purchased. In thismanner, the transaction card account associated with the purchased cardassembly is activated.

In this example, the cardholder, who may be the purchaser or recipientof the card (e.g., if the card was a gift), will present the card to acheckout point-of-sale device to purchase desired items from themerchant. Typically, the purchase occurs sometime subsequent to thepurchase and activation of the card noted above. Further, prior to useof the card to make a purchase, the card has been removed from the cardcarrier. The transaction card is swiped through a point-of-sale deviceto use the monetary value associated with the card account. As notedabove, the point-of-sale device is adapted to read a different encodabletrack on the transaction card when the card is swiped without thecarrier attached. The point-of-sale device creates a debit record thatis forwarded to the system maintaining transaction card accounts, andthe card account is debited the appropriate purchase amount. In theevent the attempted purchase exceeds the allotted card value, in someembodiments the transaction is not authorized and the customer must payfor the entire purchase, or a portion of the purchase, using some otherpayment means. It will be appreciated by those skilled in the art thatadditional methods of using transaction card assemblies also fall withinthe scope of the present invention.

The invention has now been described in detail. However, it will beappreciated that the invention may be carried out in ways other thanthose illustrated in the aforesaid discussion, and that certain changesand modifications which may be practiced within the scope of theappended claims. Accordingly, the scope of this invention is not to belimited by those specific examples, but rather is to be accorded thefull scope represented in the following claims.

1. A transaction card assembly, comprising: a carrier; a card integrallyformed within and peripherally engaging the carrier, the card adapted tobe removed from the carrier; and a magnetic strip disposed on the card;wherein the magnetic strip is positioned a first distance from a cardedge and is positioned a second distance from an edge of the carrier,the card edge being disposed between the magnetic strip and the carrieredge, and wherein the magnetic strip comprises two spaced apart tracks,and wherein the spacing between the two tracks is substantially the sameas a difference between the second distance and the first distance. 2.The transaction card assembly as in claim 1 wherein the carrier assemblyand the card are substantially co-planar when the card peripherallyengages the carrier.
 3. The transaction card assembly as in claim 1wherein the card has generally rectangular first and second surfacesspaced apart by a peripheral-edge, and wherein four sides of theperipheral edge engage the carrier assembly.
 4. The transaction cardassembly as in claim 1 wherein the card is a punch-out portion of thecarrier.
 5. The transaction card assembly as in claim 1 wherein aninterface between the carrier and the card comprises a scored region inthe carrier, the scored region defining a periphery of the card.
 6. Thetransaction card assembly as in claim 1 wherein the card peripherallyengages the carrier in a press fit arrangement.
 7. The transaction cardassembly as in claim 6 wherein two opposing edges of the cardperipherally engage the carrier to frictionally retain the card withinthe carrier.
 8. The transaction card assembly as in claim 1 furthercomprising a cover wrap disposed over the card and at least a portion ofthe carrier. 9-10. (canceled)
 11. The transaction card assembly as inclaim 1 wherein the magnetic strip comprises a first track and a secondtrack, and wherein the first track is positioned to be read by apoint-of-sale device when the card and carrier are engaged, and thesecond track is positioned to be read by the point-of-sale device afterthe card is separated from the carrier.
 12. The transaction cardassembly as in claim 11 wherein the magnetic strip further comprises athird track.
 13. The transaction card assembly as in claim 11 whereinthe first and second tracks are encoded with a same data set.
 14. Thetransaction card assembly as in claim 13 wherein the data set includes acard identifier.
 15. A transaction card assembly, comprising: a cardcarrier having a card integrally formed within, the card peripherallyengaging the card carrier and adapted to be removed from the cardcarrier; and an encodable strip disposed on the card, the strip having afirst encodable track and a second encodable track; wherein the firstencodable track is positioned to be read by a point-of-sale device whenthe card is engaged with the card carrier, and the second encodabletrack is positioned to be read by the point-of-sale device after thecard is separated from the carrier; wherein the encodable strip ispositioned a first distance from a card edge and is positioned a seconddistance from an edge of the carrier, the card edge being disposedbetween the encodable strip and the carrier edge, and wherein the firstand second encodable tracks are spaced apart substantially the same as adifference between the second distance and the first distance.
 16. Thetransaction card assembly as in claim 15 wherein the first and secondtracks comprise a same data set.
 17. The transaction card assembly as inclaim 15 wherein the encodable strip comprises a magnetic strip.
 18. Amethod of making a transaction card assembly combination, the methodcomprising: forming a card carrier from a sheet of material; forming ascore line within the card carrier, the score line defining a peripheryof a card that is adapted for removal from the card carrier; andapplying an encodable strip to a surface of the card; wherein theencodable strip comprises first and second encodable tracks spaced apartfrom one another by a gap, wherein the gap is a same distance as adistance between an edge of the card to an edge of the card carrier. 19.The method as in claim 18 wherein the encodable strip is further appliedto a portion of the card carrier in general alignment with the encodablestrip portion on the card surface. 20-21. (canceled)
 22. The method asin claim 18 further comprising encoding the first and second tracks witha same data set.
 23. The method as in claim 18 further comprisingremoving the card from the card carrier to create a hole in the cardcarrier.
 24. The method as in claim 23 further comprising applying adata set to the card, and reinserting the card into the hole, the cardfrictionally engaging the card carrier.
 25. The method as in claim 24further comprising applying a cover wrap over the card and over at leasta portion of the card carrier.